Biogeochemistry and ecosystems of continental margins in the western North Pacific Ocean and their interactions and responses to external forcing – an overview and synthesis

• Published in: Biogeosciences Vol. 11; no. 23; pp. 7061 - 7075
• Main Authors: Liu, K.-K., Kang, C.-K., Kobari, T., Liu, H., Rabouille, C., Fennel, K.
• Format: Journal Article
• Language: English
• Published: Katlenburg-Lindau Copernicus GmbH 12.12.2014; European Geosciences Union; Copernicus Publications
• Subjects: Anthropogenic factors; Bioclimatology; Biogeochemistry; Continental margins; Earth Sciences; Ecological function; Ecology, environment; Ecosystems; Environmental aspects; Life Sciences; Marine; Marine ecosystems; Oceanography; Oceans; Population density; Sciences of the Universe; Pacific Ocean; ISEW, South China Sea; INW, Pacific, Kuroshio Current; INW, Donghai Sea; IN, North Pacific
• ISSN: 1726-4189; 1726-4170; 1726-4189
• DOI: 10.5194/bg-11-7061-2014

In this special issue we examine the biogeochemical conditions and marine ecosystems in the major marginal seas of the western North Pacific Ocean, namely, the East China Sea, the Japan/East Sea to its north and the South China Sea to its south. They are all subject to strong climate forcing as well as anthropogenic impacts. On the one hand, continental margins in this region are bordered by the world's most densely populated coastal communities and receive tremendous amount of land-derived materials. On the other hand, the Kuroshio, the strong western boundary current of the North Pacific Ocean, which is modulated by climate oscillation, exerts strong influences over all three marginal seas. Because these continental margins sustain arguably some of the most productive marine ecosystems in the world, changes in these stressed ecosystems may threaten the livelihood of a large population of humans. This special issue reports the latest observations of the biogeochemical conditions and ecosystem functions in the three marginal seas. The studies exemplify the many faceted ecosystem functions and biogeochemical expressions, but they reveal only a few long-term trends mainly due to lack of sufficiently long records of well-designed observations. It is critical to develop and sustain time series observations in order to detect biogeochemical changes and ecosystem responses in continental margins and to attribute the causes for better management of the environment and resources in these marginal seas.